EP1511283A1 - Shared communications system with tenant-individual administration of numbering plans - Google Patents

Abstract

The call number plan is customer-individual and is freely configured and organized by the customer. System administration, hardware addressing and customer identification numbers are provided. An independent claim is included for the corresponding communications system.

Description

The invention relates to a method for operating a communication system and a communication system, wherein in particular the communication system to a public network is connected and by several independent customers with each one of a customer associated group of participants from each other is being used.

Telephone systems provide the subscribers or terminals connected to them Features available. Large private telecommunications systems (PBXs) reach today expansion stages of over 10,000 participants. Be this Telecommunications equipment, e.g. About QSIG, so can communication systems whose controllable number of participants can only be Length of the signalable numbers is limited. telecommunications systems These orders of magnitude not only offer a wide range of call processing Features that the possibilities of small telecommunication systems By far, they also provide access to server-based applications such as CTI (Computer Telephony Integration), CRM (Customer Relations Management) and call center.

The features of the telephone systems are different consuming too to implement. Complex call processing features and server-based Applications require a large implementation effort, which is suitable for smaller ones Terminal numbers often proves to be uneconomical, so that such features in Small plants are not or rarely found. There are therefore approaches that Features of large PBX systems for many customers, each with its own subscriber groups provide centrally and so the cost of features per participant to lead into economic areas. Two familiar approaches to this are the Centrex Service in the public network of Deutsche Telekom AG in Germany, as well as the "multi-company" approach in the field of private telecommunications equipment.

With the service Centrex typical characteristics of private telephone systems become provided by the network operator for many customers centrally. The service uses properties private telephone systems and public network features. The network intelligence, i.e. the control of the features is in the public network away from the customer and the interface between the public network and private network is in a virtual place with the function of a gateway within the public network. A Centrex customer creates a customer numbering plan and selects a selection of features for which he is willing to pay and a Centrex administrator of the public network operator the customer numbering plan and the selected features, allowing them for the participants of the customer are available. The Centrex service is relatively expensive and the customers are companies. Neither an administrator of the customer nor a subscriber can set up all features. Each time a participant has a choice of Wants to change features, this is expensive because of the involvement of the additional Centrex Administrators of the public network operator as external Service of a third party. Such services controlled from a public network In addition, they do not include particularly advanced features of large telephone systems for telephony of user groups.

The multi-company approach in the area of private networks is based on a telephone system in a single place. This is also referred to as a campus solution because of the private network typically extends over a campus area. In a big one Device is operated the communication system of the building or facility by a network operator such as the Applicant or Regus Corporation, UK. The network intelligence is in the private network on campus and the Transition to the public network is also on campus. Legally independent Customers or clients typically rent office space in the facility and everyone Client chooses individually a selection of features for which he is ready to pay, and an administrator of the network operator of the establishment of the telephone system operates, implements the selected features and presents them Participants of the clients ready. The service is mediocre and the customers are expensive Companies. Neither a company-owned administrator nor a company participant can the implement selected features for deployment. Every time one Customer wants a feature change, this is costly because the administrator the operator of the telephone system as a third party must be turned on. Furthermore, the private telephone systems are not designed for such use, and therefore it is not possible, all possible combinations of features for each Set up clients individually and simultaneously. Therefore, the operator of the campus offers Network packages of features that are set up and operated simultaneously can be. For an existing system, the number of installable companies limited to 64 and the telephone system knows the term of the company or the client or not customers. There the switching-based demarcation of the customers takes place from each other by adapting existing features, e.g. the formation of Transport groups.

Since the telephone systems are not designed to be legally independent clients completely separate from each other, a client-based resource management is missing, a client-related fee calculation, a client-specific specific routing and client-specific networking. Also missing a client-specific numbering plan, i. it is not possible to attend participants of several clients in each case to assign the same internal numbers. this means For example, that a client with only 9 participants for these 5-digit internal numbers needed. In addition, the system of client number ranges highly limited. The reason for this is that the campus facility has a number range has, e.g. 4711 10000 to 4711 99999, the operator of the campus facility distributed his customers. A disadvantage here is that after several years of operation with many customer changes this area is arbitrarily dismembered, so that a new Customers are not assigned a contiguous number range from the stock can. The same applies to a customer with growing demands on the number of participants, because the immediately adjacent to its phone number section areas maybe already forgiven.

It is therefore the object of the present invention to provide a communication system and to provide communications services that are multi-tenant, with customers each with its own participants completely independently set up, operated and can be managed.

This object is achieved by the methods and a device having the features solved the independent claims. Preferred embodiments of the invention result from the dependent claims.

A central idea of the invention is virtual private telecommunications equipment each with its own data management and its own data access structure provide. Such a virtual asset can be assigned to each client or client and thus its participants are independent and organizational separate from the participants of other customers. According to the invention, this idea implemented by a communication system with a customer-specific freely configurable by the customer installable customer numbering plan. Such a communication system can on the basis of a private telecommunications system any Number of customers, each with an arbitrary number of subscribers. Within a customer's virtual plant, features are both customer-wide as well as individually for its participant set up. This happens largely through an administrator of the customer himself, e.g. the allocation of user permissions, especially in connection with official traffic or the use of features. The setup and modification of some data within the virtual The system is reserved for the system administrator. These are e.g. the configuration of the Traffic between virtual assets of different customers and unlocking and Locking of hardware addresses.

As far as language is concerned, it should be noted that in the field of telephony services "customer" and "client", each with several participants corresponds to a terminal, where it from the perspective of the system a unique subscriber line to identify the terminal and thus the subscriber. In the switching technology, it is customary to use the term subscriber equivalent for the Terminal to use.

A method according to the invention for operating a communication system, which is connected to a public network and several independent ones Customers with one group of participants assigned to each customer independently is used by each other, with a customer-specific freely configurable customer number plan makes it possible, first by means of a system administrator a Set up customers and then the participants of the customer by the customer set up by yourself. This is done advantageously by a customer as a customer entitled subscriber of the customer, whereby this one customer call number plan established.

According to the invention, it is furthermore provided that customer-specific access call numbers regarding the public network. this makes possible a "move" of an existing customer who was previously connected to the public network is to a service provider, which is a communication system for many customers operates. The customer retains his access number when moving with respect to the public network. With respect to the connection of the communication system according to the invention With the public network, it is even possible to have a number of Lines to dynamically occupy with different access numbers. This saves Connection lines between the public network and the communication system, whereby stochastic load peaks of individual customers with line capacity reserves of the Overall system of all customers.

According to the invention, it is proposed that each customer has a customer identification number assigned. Preferably, the customer identification number is in one Database of the system used as an identifier for a database to a customer. The customer identification number enables the customer-specific device virtual telephone systems. Their use as identifiers allows databases to do so be changed that with the customer identification number as a key to one customer-specific part of the database can be accessed. It still allows a duplication of the customer data such that with the identifier ranges of the different Customers are identified and that customer records are duplicated the customer records are completely independent of each other.

FIG. 1 eine schematische Darstellung eines Telekommunikationssystems gemäß der Erfindung;

FIG. 2 schematische Darstellung von Zugriffen einer Vermittlungssoftware auf eine Datenbank eines Telekommunikationssystems gemäß der Erfindung;

FIG. 3 ein Ablaufdiagramm eines Verfahrens zum Betrieb eines Telekommunikationssystems gemäß der Erfindung; und

FIG. 4 ein Ablaufdiagramm eines alternativen Zweigs im Verfahren zum Betrieb eines Telekommunikationssystems gemäß der Erfindung nach FIG. 3.

Further advantageous embodiments will become apparent from the other dependent claims and from the following description of a preferred embodiment, which is explained in more detail with reference to the drawings. Hereby show:

FIG. 1 is a schematic representation of a telecommunication system according to the invention;

FIG. 2 schematic representation of accesses of a switching software to a database of a telecommunication system according to the invention;

FIG. 3 is a flow chart of a method of operating a telecommunications system according to the invention; and

FIG. 4 is a flowchart of an alternative branch in the method of operating a telecommunication system according to the invention of FIG. Third

FIG. 1 schematically shows a communication system 10 according to the invention a central communication system 12, which via a line 14 to a public Network is connected. To the communication system 12 are terminals 16, 18, 20, 21, the subscribers of different customers 22, 24, 26, 27 represent, via lines 28, 29, 30, 31 connected. The terminals 16, 18, 20, 21 are arbitrary in a telecommunication network Operable terminals such as analogue telephone, ISDN telephone, system telephone, IP telephone, fax machine, answering machine. To manage each other completely independent customer 22, 24, 26, 27, the communication system 12 has a Device 32 for providing a customer-specific freely definable numbering plan on. This device for providing the numbering plan 32 is based on a private telephone system and is assigned to the separation of the different customers Data areas set up. Due to the separation of the different data areas the means for providing the numbering plan 32 acts as one each virtual private telephone system 34, 36, 38, 39 for each of the customers 22, 24, 26, 27.

The terminals 16, 18, 20, 21 or participants of different customers 22, 24, 26, 27 each form a group of participants of each customer, wherein the customers or their groups the communication system 10 unabo use each other with a customer-specific freely configurable by the customer settable customer numbering plan.

The central communication system 12 also has a device 40 for Setting up a customer-specific access number according to E.164 with regard to the public network, under which the customer can be dialed via the public network. The choice is the transmission of the unique E.164 telephone number. A worldwide unique Phone number 48, 50, 52, 53 consists of E.164 from an access number of a Customers regarding the public network and, if applicable, a subscriber number 60, 62, 64. The access number relating to the public network consists of the Phone number of the customer 42, 44, 46, 47 in the respective local network and possibly additional Phone numbers 54, 56, 58, 59 for the local area network and, where appropriate, the country of Customers to achieve clarity within the public network. The customer 4 has the peculiarity that this customer 4 operates only one terminal 21, and therefore the phone number 53 of the customer 4 with the access number regarding the public Network 59 + 47 is identical. In this case, no distinction is made by participants of the Customers necessary. For customers with multiple participants such as 22, 24, 26 the Subscriber identified by subscriber numbers 60, 62, 64.

The device 40 allows each customer 22, 24, 26, 27 to have their own, from the other completely independent telephone number 42, 44, 46, 47 regarding the public Net has. This public network number is independent of the number and type of lines 14, with which the communication system 10 with the public network is connected. To simplify the presentation are as an identifier with respect to the public network only national codes of local nodes in the remote area network Deutsche Telekom AG 54, 56, 58, 59 indicated. The numbers within the customer number plan are assigned individually, with identical or partial identical number blocks, possibly of different length, i. Number of digits, within the same physical communication system 12 vergebbar are. Thus, the customer 24 has a numbering plan with 3-digit numbers 62. The Customers 22 and 26 have largely identical number plans with 4-digit numbers 60 and 64. Within the communication system 12 are areas with customer data for different customers separated by a customer identification number KID saved. Based on this customer identification number, the Customers distinguished, so adding the customer identification number as Identifier partially identical customer number plans in turn become unique. The communication system 12 further comprises means 66 for analyzing and associating Call numbers. This device 66 serves to determine the customer identification number from a phone number of an incoming call. This phone number is worldwide unique and becomes an incoming call from the public network as a destination number with transfer. The device 66 furthermore acts as a device for the determination a hardware address of the destination terminal from the worldwide unique phone number using the customer identification number for a call from an external source. After this the device 66 has analyzed the phone number and the customer identification number It may, via the means for providing the numbering plan 32 access the numbering plan belonging to the customer identification number and based on the subscriber number 60, 62, 64, the hardware address of the desired Find out subscriber line and the communication system 12 can the convey an incoming call to the desired subscriber. The device for analysis and assignment 66 acts as a means for calling from an internal source Determination of a customer identification number from the hardware address of the calling party Participant. If the customer identification number of the calling party, and In order for the customer to know who the subscriber is known, the dialed number can be be analyzed according to the rules that this customer has set up and that Conversation to be mediated internally or externally.

FIG. 2 schematically shows the interaction of a switching software (Call 11 Control) and data storage in a communication system according to the invention. The part of the switching software described here concerns the analysis and assignment of phone numbers and the numbering plan and thus the facilities 66 and 32 FIG. 1. The data storage concerns according to the numbering plan and the customer-separated Data storage according to the virtual telecommunication systems 34, 36, 38, 39 in FIG. 1.

Within the switching software 70, a dispatcher software 72 accesses a Database 74 too. In the database 74, the data associated with the customers is separated filed identifiable by each other and by the customer identification number, each in areas 75, 76, 77, 78. Each of the customer areas 75, 76, 77, 78 contains the corresponding numbering plan 79 with a reference to the hardware address (s) of Subscriber lines, a customer-specific Least Cost Routing (LCR) 80 and more customer-specific data 82. The operation of the dispatcher software 72 is described on Example of an incoming call from an external source. The incoming destination phone number 83 is analyzed by the dispatcher 72 and the customer identification number determined. Based on this customer identification number 84 is now on the database 74th accessed, and only on the corresponding of the areas 75, 76, 77, 78. Bei this access is from the subscriber section of the incoming call number 83, in FIG. 1 at 60, 62, 64, and the customer identification number 84 from the Numbering plan 79 determines the appropriate subscriber and the associated address the subscriber line determined in 80 and output as the hardware address 86. In the case of the customer 4 in FIG. 1 with only one terminal 21 is the only participant already clearly identified and it will only be the associated address of the subscriber line determined in 80 and output as hardware address 86. So that can another part of the switching software 70 makes the incoming call to the desired one Connect participants and this connection persists until one of the participants in the conversation the conversation ended.

For a call from an internal source, Dispatcher 72 uses the database to determine from the line address of the calling party, the customer identification number and thus the customer and then analyzes the dialed number and determines if this is an internal or external call. From the data management and switching technology forth all calls to other customers and to outside as external calls. Another part of the switching software 70 can now with the analyzed Telephone number data the connection either to external or to another Connect participants of the same customer.

FIG. 3 shows in flowchart 90 a method for operating a telecommunication system according to the invention. The method begins with method step 92, Setting up a customer by a system administrator, with the substeps 94 Set up a customer identification number KID, and substep 96, set up a customer-specific access phone number to the public network. With this section of the procedure the customer's setup is completed by the system administrator and according to the invention is thus the administration portion of the system administrator completed.

Now follows in step 98, the establishment of subscribers (Tln) of the customer by a customer administrator. This administrator in the area of the customer directs in the Method step 100 includes a customer-specific numbering plan of the customer. In order to the setup of the subscriber assigned to the customer is completed and it can be phoned.

Telephoning takes place in two branches, branch 102 for a call from an external source and in branch 104 for a call from an internal source. A call out external source has the peculiarity that he arrives on an outside line, wherein Trunks shared by all customers. Thus, their Hardware can not be assigned to a customer. When a call from internal source is in In contrast to this, the connection establishing connection has a subscriber device the plant, z. B. a subscriber line. Each subscriber device is over whose hardware data is assigned to a customer. Calls from internal and external Source are treated differently. For a call from an internal source, the KID from the hardware data of the port, the subscriber device establishing the connection, be taken as a connection clearly assigned to a customer is. In the case of a call from an external source, on the other hand, the determination of the KID takes place the destination number.

A special feature is the traffic from customer to customer that normally as external traffic via a public network, as in the dialed number Dialing codes of a public network are included. In this case, both lies a call from an internal source to the public network as well as a call from external Source from the public network from the point of view of the participating virtual plants. However, it is It is also possible that the system administrator has an LCR or special routing of a virtual attachment to another virtual system such as access numbers regarding the public network and these discussions within be conveyed to the real investment.

In step 106 receives the central communication system, communication system 12 in FIG. 1, a call from external source. In step 108, the call transmitted with the call Destination phone number analyzed. In step 110, the called customer and his KID determined. Subsequently, in step 112, the assignment of the call in KID. In Step 114 loads the numbering plan (RNP) associated with the KID. With the RNP In step 116, the hardware address of the destination subscriber is determined. With the hardware address At step 118, the call from external source becomes the desired one Participants made. The connection continues until in step 120 the call is terminated by one of the two participants. A special case is a call external source in individual selection. The KID must be derived from the election information become. The election information is incomplete at the beginning of the transaction. Therefore, will waits until there is sufficient choice information about the correct customer identification number determine and request specific data from the database system.

In step 122 in branch 104, in communication system 12 in FIG. 1 a call obtained from internal source. The address of the subscriber line of the calling Participant is known and thus also the calling party is known. Now it will at step 124, the customer associated with the subscriber and his customer identification number KID determined. In step 126, an assignment of the call to the KID is made. Subsequently, in step 128, the dialed number is analyzed accordingly the customer's rules and in step 130 it is determined if it is a call with external destination. If so, then in step 132, a corresponding network selection takes place, about the connection of the call from internal source - in this branch to the desired external subscriber - is established in step 138. If it is not about is a call with an external destination, so the destination turn a participant of the same Is customer, then in step 134 the call number plan associated with the KID determined in step 124 will be used loaded. With the RNP, in step 136, the hardware address of the destination subscriber determined. The hardware address is the connection of the call internal source - in this branch to the desired internal subscriber - in step 138 produced. The connection persists until one of the participants steps them in 140 finished.

After terminating the call, ie after step 120, or after step 136 branches the inventive method depending on the situation either to set up a new Customers in step 92 to set up new subscribers of an existing customer or setting up changes in the subscriber database in step 98 or to receive another call according to step 106 or step 122. In powerful communication systems 12 runs the inventive method often independent from each other in parallel, so not only many participants at the same time phone, but also many administrators facilities in the customer data make.

FIG. 4 shows a flowchart 150 of a branch 152 in the method of operation of a telecommunication system according to the invention as an alternative to branch 104 in FIG. 3. Appropriate steps are given the same reference numbers. This alternative Embodiment of the method according to the invention takes into account the case that For traffic from customer to customer the system administrator is routing one of them set up virtual attachment to another virtual attachment and these conversations be taught within the real plant.

In step 122 'in branch 152, in communication system 12 in FIG. 1 a call obtained from internal source. The address of the subscriber line of the calling Participant is known and thus also the calling party is known. Now it will at step 124 ', the customer associated with the subscriber and his customer identification number KID determined. In step 126 'an assignment of the call to the KID is made. Subsequently, in step 128 ', the dialed number is analyzed accordingly the customer's own rules and in step 130 'it is determined whether it is a Call with external destination acts.

If yes, after step 130 ', then in step 154 now another query, whether the Target of the call in the communication system 12 is located.

If yes after step 154, then there is traffic from customer to customer, and in Step 156 becomes the customer's KID to the called party from the destination phone number determined. At this KID determined at step 156, at step 158, the associated Calling plan loaded. With the RNP, in step 160, the hardware address of the Target participant determined. The hardware address is used to connect the call from Customer to customer in step 138 'produced. The connection persists until one of the Participant ends it in step 140 '.

If no after step 154, then traffic to a destination outside of Communication system 12 before, and in step 132 'is a corresponding network selection, about the connection of the call - in this branch to the desired external Participants - in step 138 'is produced.

If it is not a call with an external destination in step 130 ', ie the destination is again a subscriber of the same customer, then in step Step 124 'determined KID belonging call number plan loaded. With the RNP will be in Step 160 determines the hardware address of the destination subscriber. With the hardware address is the connection of the call - in this branch to the desired internal Subscriber - made in step 138 '. The connection persists until one of the Participant ends it in step 140 '.

One aspect of the invention is that the switching technique is a form of process computing represents. Each connection between participants represents a separate one Process within the software of the telecommunications system according to the prior art, and is thus an instance of the mediation task. The parameters that identify such an instance are the hardware address HWA of the module, which is connected to a call processing Operation involved and a transaction number TAN, as each assembly to several transactions at the same time. Instead of the hardware address It is also possible to use a virtual hardware address that is not real Slot with a real HWA can be assigned, behind but a terminal connection hides. An example would be a connection of an IP-Phones, which connected via a LAN, using Internet Protocol. To each of these instances There are memories managed by a central database system. Of the Access to this memory is only possible via interfaces of the database system Specification of the instance parameters HWA and TAN. According to the invention, another instance parameter defined, the customer identification number KID.

Both a telecommunications system according to the prior art and an inventive Communication system is administered via administrative forms. facilities usually done either for a specific HWA or for the entire system and with it for all HWA. The setup data are also from the database system mentioned above managed, i. every change, extension, deletion or display of setup data results in accesses to interfaces of the database system. Apply data only for one specific device, HWA or internal number must be specified. In This connection is in the communication system according to the invention the Customer identification number communicated to the database system.

In detail must be for the inventive method each terminal and each Calling process can be clearly assigned to a customer. In In switching technology, the terminal number is a basic date for identification using the international numbering plan E.164, the makes each terminal uniquely identifiable worldwide.

According to the state of the art in private telecommunications equipment was a Terminal with its internal number within the PBX uniquely identifiable. According to the invention, this is no longer so, as in the division of the central Communication system 12 in a plurality of virtual PBX systems 34, 36, 38, 39 in FIG. 1 this one Call number can be assigned by several customers. Therefore, every terminal becomes managed according to the invention under the phone number assigned in the number E.164 telephone number plan is. When a terminal requests a connection, its phone number may be off its configuration data are read out. Alternatively, in ISDN terminals, the used by the terminal in the message Setup Calling Party Number. For incoming trunk calls, the number of the destination device is selected from the dialing information won. For DSS1 lines, this number is in the information element Called party number included. According to the invention, the customer identification number derived from the phone number of the called terminal. The customer identification number is an identifier by software, advantageously an integer numerical value in terms of structure.

The invention has the advantage that the central communication system 12 in FIG. 1 can be created on the basis of a private telecommunications system. One particular advantage is that the highly complex switching software a private PBX remains almost unchanged. Only mechanisms for calculating the Customer identification number, ie the additional identifier, are required. These Task takes over the device for the analysis and assignment of call numbers 66 in FIG. 1 as a so-called dispatcher, the number of a customer identification number determined. The dispatcher controls the accesses to the database system and transmits them the assigned data to the switching technology. The database system is according to the invention able to manage storage structures on a customer-specific basis. After a Particularly advantageous embodiment of the invention can be the complete existing Memory structures of a private telecommunications system, this being complete record is set up for each customer. Such customized Records 75, 76, 77, 78 are shown in FIG. 2 shown. With the help of the customer identification number the mediation software 70 accesses this database on a customer-specific basis. The Customer-specific storage of telephone number plans has the following characteristics: The Length of the customer internal numbers are customized, i. 0 to X-digit Telephone number plans can be set up simultaneously on a PBX. A 0-digit Numbering plan as in the case of the customer 4 in FIG. 1 is a call number plan that for a phone number with zero digits the hardware address of the single for that customer returns powered terminal.

For subscribers of a customer terminals of foreign customers are logically nonexistent, since they do not lie in the call number plan of the own customer. Terminals within of your own customer can be dialed with their own internal phone number. In this case, advantageously only the internal numbers in the device display brought to the display.

The trunk lines of the PBX are advantageously shared by all customers used. The DSS1 lines can be used with different customer numbers so that this usage is dynamic and has fewer wires overall Power reserve reserve must be kept.

Another advantageous embodiment is the introduction of a default customer. Under the identifier of the default customer, ie his customer identification number standard data can be stored in the database system, it can be plant-wide valid data are stored and he can with individual choice to the completeness of the Election information can be used.

The embodiment of the invention is not based on the example described and the above highlighted aspects, but within the scope of the claims as well in a multitude of essays that are within the scope of professional action.

LIST OF REFERENCE NUMBERS

Communication system 10

Communication system 12

Line 14

Terminals / subscribers 16, 18, 20, 21

Customers 22, 24, 26, 27

Lines 28, 29, 30, 31

Device 32 for providing RNP

Data areas / virtual private telephone system 34, 36, 38, 39

Device 40 for establishing an access phone number

Phone number 42, 44, 46, 47 in each local area network

Phone number E.164 48, 50, 52, 53

Phone numbers 54, 56, 58, 59 for the local area network

Subscriber numbers 60, 62, 64

Device 66 for analysis and assignment

Mediation software 70

Dispatcher software 72

Database 74

Customer areas 75, 76, 77, 78

corresponding telephone number plan 79

LCR 80

customer specific data 82

Destination phone number 83

Customer identification number 84

Hardware address 86

Flowchart 90

92, Setting up a customer

94 Setting up a customer identification number

96, Setting up a customer-specific access phone number

98 Setting Up Attendees

100 Setting up customer-specific numbering plan

Branch 102

Branch 104

106 Call from external source

108 Analyzing the destination telephone number

Determine 110 KID

112 Assignment of the call to KID

114 load RNP

116 Determine the hardware address of the destination user

118 Establish connection

120 End call

122 in branch 104 call from internal source

Determine 124 KID

126 Assignment of the call to the KID

128 call number analyze

130 Call with external destination?

132 Network selection

138 Establish connection

140 End connection

Flowchart 150

Branch 152

154 Destination of the call in the communication system?

156 KID of the customer to the called party

158 Load numbering plan

160 Determine hardware address

Claims (16)

A method (90) for operating a communication system (12) which is connected to a public network and by a plurality of independent customers (22, 24, 26, 27) each having a group of subscribers (16, 18, 20, 21 ) is used independently of each other, characterized by a customer-specific customizable set up by the customer customer number plan. The method of claim 1, comprising the method steps
Establishing (92) a customer by a system administrator; and
Establishing (98) a customer number plan for the group of subscribers (16, 18, 20, 21) assigned to the customer by one of these subscribers. Method according to claim 1 or 2, wherein customer-specific access call numbers regarding the public network. The method of any one of claims 1 to 3, wherein each customer has a customer identification number (84) is assigned. The method of claim 4, wherein when called from an external source from a worldwide unique number of the called party the customer identification number (84) is determined. The method of claim 5, wherein in the case of call from an external source from the world unique telephone number of the called subscriber by means of the customer identification number (84) a hardware address is determined (102, 108 to 116). Method according to one of claims 4 to 6, wherein in a database of the system the customer identification number (84) as an identifier for a database to a Customer is used. Method according to one of the preceding claims, wherein in case of call from internal Source from a hardware address of the calling party a customer identification number (84) is determined (104, 124, 152, 124 '). In the communication system (12) which is connected to a public network and a plurality of independent customers (22, 24, 26, 27) associated with each of a customer is used from each independent to group of subscribers (20, 21 16, 18,), by a device (32) for providing a customer-specific freely configurable telephone number plan that can be set up by the customer. Communication system according to claim 9, comprising means (40) for setting up a customer-specific access number relating to the public network. Communication system according to one of claims 9 or 10, wherein a customer associated data area (34, 36, 38, 39) by a customer identification number (84) is identified. Communication system according to claim 11, with a device for determining the Customer identification number (84) from a worldwide unique phone number at call from external source. Communication system according to claim 11 or 12, comprising means (66) for Determination of a hardware address from the worldwide unique telephone number by means of the customer identification number (84) for call from external source. Communication system according to one of claims 11 to 13, with a device (66) for determining a customer identification number (84) from a hardware address with call from internal source. Communication system according to one of claims 11 to 14, wherein the device for providing (32) the numbering plan on a private telephone system, the data areas associated with the separation of different customers (22, 24, 26, 27) (34, 36, 38, 39) is set up. Communication system (10) with a communication system (12) according to one of Claims 9-15, to the terminals (16, 08, 20, 21) of different customers (22, 24, 26, 27) are connected.

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